KR101446876B1 - small hydroelectric system of tunnel drain pipe - Google Patents

Abstract

The present invention relates to a small hydroelectric power generation system of water-intake with a tunnel drainage pipe. More specifically, the small hydroelectric power generation system can generate power by using water in a drainage, which is discarded and flows along a drainage pipe of a tunnel. The present invention includes: the drainage pipe of the tunnel; a water conduit for an intake of water drained by the drainage pipe of the tunnel; a precipitation recovery process tank for temporarily storing the water recovered by the water conduit, processing sediment, and preventing pollution; a water pressure conduit which is installed to be inclined to have a pressure head for generating power by catching water flowing from the water conduit; and a power generation unit which generates power by allowing the water falling along the water conduit to generate rotational force of a turbine.

Description

A small hydroelectric system of a tunnel drain pipe

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a small-scale hydro-power generation system for a tunnel drain, and more particularly, to a small drainage power generation system using a tunnel drain.

Generally, power generation methods include thermal power generation, nuclear power generation, hydro power generation, solar power generation, wind power generation, and tidal power generation.

The thermal power generation and nuclear power generation generate electricity by rotating a turbine in a generator with steam generated by heat. Hydroelectric power generates electricity by rotating the turbine due to dropping of water stored in the dam.

However, the thermal power plant described above uses fossil fuels such as coal or petroleum as an energy source, and the construction cost of the power plant is relatively low. However, due to the limited amount of reserves of fossil fuel and the like, There is a problem of contamination.

Nuclear power generation uses enormous amounts of heat generated by nuclear fission of radioactive materials such as uranium as an energy source. Although it has high generation capacity, safety related to the use of nuclear fuel, There is a problem such as environmental pollution.

In addition, hydroelectric power is converted into rotational energy to obtain the energy (position) energy of the water stored by the dam, so that the power generation cost is low, but the area where the power plant is constructed is limited and a large area of land must be submerged. There is a problem that causes social problems and destruction of natural ecosystem.

Accordingly, research and efforts have been made to develop a practical device for the interest and use of clean energy as a substitute for thermal power generation, nuclear power generation and hydro power generation for a long time.

However, development of a power generation system using clean energy other than the power generation system described above is a very difficult task, so that the effect of research and efforts on investment is not significant.

On the other hand, a drainage duct for draining sewage such as groundwater or stormwater is installed inside the tunnel.

The drainage duct is composed of a drainage pipe connected to a water collection duct installed in the ground and collecting sewage. The drainage water is collected through the water collection duct and then discharged to a river or other large sewage pipe through a drainage pipe.

Therefore, it is very beneficial to generate small power by giving a certain amount of water to the water discharged through the water pipe.

However, there is a problem in that the small hydroelectric power is generated through the water discharged to the river or other large sewer pipe through the drain pipe, and the accessibility is low when the power generator is broken down due to the dirt and the problem occurs.

In order to solve the above-mentioned problems, the present invention provides a tunnel drainage system in which a power plant failure due to contaminant inflow is prevented in advance through a sediment collection tank for treating sediments generated in a drainage channel and pollution- It is aimed to provide an intake hydroelectric power generation system.

The present invention relates to a tunnel, A water pipe for taking in the water drained from the drain of the tunnel; A sediment collection tank for temporarily storing the water collected in the water pipe line to treat sediment and prevent pollution; A hydraulic pipe installed to receive the water introduced from the water pipe and have an inclination so as to have a drop for power generation; And a power generating unit that generates power by causing the water falling along the hydraulic pipe to generate a rotational force of the turbine.

In one embodiment, the sediment collection tank is provided with a sediment sensor for measuring the accumulated height of sediments and generating and transmitting numerical information; And a sediment sensor unit for receiving numerical information from the sediment sensor and generating corresponding sediment height information.

In one embodiment, the water pressure pipe is provided with a contamination detection sensor for detecting contamination of the incoming water and generating and transmitting numerical information. And a contamination detecting sensor unit for receiving numerical information from the contamination detecting sensor and generating corresponding contamination information.

In one embodiment, the sediment sensor unit or the contamination sensor unit is connected to a sensor controller for receiving the sediment height information and the contamination information, comparing the received sediment height information and the contamination information with a reference value, And a communication module for wirelessly transmitting the processing time of the deposit and the contamination determination information.

According to the present invention, since the existing drainage structure is used, the natural damage is less than that of existing power generation facilities, and the installation cost is remarkably reduced, so that the environment-friendly and economical efficiency is increased.

According to the present invention, the filtered water filtered by the pollutant in the settling collection tank does not affect the propeller or the power generation system, so that the power generation operation can be easily continued.

FIG. 1 is a view showing a schematic configuration of a tunnel drain water intake small hydro power generation system according to the present invention.
FIG. 2 is a plan view schematically showing a detailed structure of a tunnel drain water intake small hydro power generation system according to the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

As shown in FIG. 1, in the tunnel drain water intake small hydro power generation system according to the embodiment of the present invention, drainage passages 18 and 20 of a tunnel, which is a waterway, are provided for necessary power generation through water flowing along the drainage path of the tunnel, A water pipe line 30 and a hydraulic pipe 50. A settling collection tank 40 is provided between the water pipe line 30 and the hydraulic pipe line 50 among the water channels, A power generating portion 60 is formed.

For this, a passage penetrating a general mountain or a hill is made and the surface of the passage is polished. After the drainage passages 18 and 20 are installed, the waterproof film 12 is covered and the concrete 14 is applied and the tile 16 is attached .

The water pipe (30) is a channel for taking in water drained from the drainage passages (18, 20) of the tunnel, and connects the portion where the drainage passages (18, 20) of the tunnel start and the end portion thereof, Allow water to be collected in one place.

The sedimentation treatment tank 40 is provided with a plurality of layers of separating nets or separation membranes 42 and 44 for sediment treatment and contamination prevention for temporarily depositing and collecting the water collected in the water pipe 30, As facilities installed at intervals, various sensors described below are attached.

The water pressure pipeline 50 is a water channel installed to receive water flowing from the water pipe line 30 and have an inclination so as to have a drop for power generation. The hydraulic pipe line 50 has a maximum inclination angle so as to provide a drop for a proper level of water pressure, And directly flows to the power generation section 60 at a high speed.

The power generating section 60 is a device for generating electricity by causing the water falling along the hydraulic pressure pipe 50 to generate the rotational force of the turbine and is a device for generating power by rotating the propeller, the propeller rotating shaft, the rotor, the permanent magnet, the armature iron core, .

As shown in FIG. 2, in the tunnel drain water intake small hydro power generation system according to the embodiment of the present invention, water in the drainage passages 18 and 20 collects through the drainage pipe 30, A sediment sensor unit 72 attached to the sedimentation treatment tank 40 for sensing the height of sediments and the like and a sediment sensor unit 70 for sensing the height of the sediment, A contamination detection sensor unit 74 for detecting contamination concentration of filtered water flowing along the hydraulic pipe 50 and a sensor control unit 80 for controlling the deposit sensor unit 72 and the contamination detection sensor unit 74, And a communication module 82 for transmitting the final sensor information generated by the sensor control unit 80.

As the propeller through which the filtered water passes is rotated, the rotor of the power generator connected to the rotating shaft of the propeller rotates. When the rotor rotates, the permanent magnet rotates The magnetic field generated by the magnet induces a magnetic flux change in the armature core of the stator close to the rotor to generate a voltage in the armature coil, thereby generating power.

Therefore, the filtered water filtered by the pollutants in the settling collection tank 40 can easily continue the power generation operation without affecting the propeller or the power generation apparatus.

Further, in the tunnel drainage small hydroelectric generation system according to another embodiment of the present invention, the sediment sensor 45 for generating and transmitting numerical information of a maximum value obtained by measuring the stack height of sediments is subtracted from the sediment collection tank 40, A sediment sensor unit 72 for receiving numerical information from the sediment sensor and generating corresponding sediment height information is attached.

The pollution detection sensor 52 detects the pollution with respect to the incoming water to generate numerical information and transmits the numerical information to the water pressure pipe 50. The pollution detection sensor 52 receives the maximum value information, A contamination detection sensor unit 74 for generating information is attached.

The sediment sensor unit 72 and the contamination detection sensor unit 74 are connected to a sensor control unit 80 for comparing the sediment height information and the contamination information with a previously stored reference value to determine the treatment time of the deposit and whether the pollution is contaminated , And the sensor control unit includes a communication module 80 for wirelessly transmitting the processing time of the deposit and the contamination determination information.

In addition, according to another embodiment of the present invention, there is provided a small drainage system for a tunnel drain aspirated water generation system, wherein the drainage pipe (30) is connected to another drainage pipe (not shown) bypassed from the drainage pipe (30) Is equipped with an opening / closing gate.

Therefore, when the height of the sediment reaches a danger value, the sensor control unit notifies the communication module 80 of the height of the sediment, activates the opening / closing gate of the drain pipe 30, and bypasses the drain pipe to another drain pipe, It is possible to prevent the power generation deterioration in accordance with the power consumption.

The embodiments of the tunnel drainage taken-off small hydroelectric power generation system of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. .

Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

12: Waterproof membrane
14: Concrete
16: Tile
18, 20: drainage
30: By the way
40: Precipitation collection treatment tank
42, 44: Separation net or membrane
45: Sediment sensor
50: Hydraulic conduit
52: Contamination detection sensor
60:
72: Sediment sensor section
74: Pollution detection sensor unit
80:

Claims (4)

Drainage of tunnel;
A water pipe for taking in the water drained from the drain of the tunnel;
A sediment collection tank for storing sediment and preventing pollution by providing a separation membrane for filtering and forming precipitate by temporarily storing the water collected from the water pipe;
A hydraulic pipe installed in the settling collection tank so as to have slope so as to receive sediment treatment and contamination-free water and to generate a drop for power generation; And
A power generator generating electricity by causing water falling along the hydraulic pipe to generate a rotational force of the turbine;
And,
The settling-
A sediment sensor for generating and transmitting numerical information by measuring the stack height of sediments; And
A sediment sensor unit receiving numerical information from the sediment sensor and generating corresponding sediment height information; Respectively,
The hydraulic pipe may include:
A contamination detection sensor for detecting contamination of the incoming water to generate and transmit numerical information; And
A contamination detecting sensor unit for receiving numerical information from the contamination detecting sensor and generating corresponding contamination information,
And the power generation unit is prevented from malfunctioning due to contamination inflow. delete delete The method according to claim 1,
The sediment sensor unit or the contamination detection sensor unit receives the sediment height information and the contamination information, and compares the height information and the contamination information with a reference value to connect a sensor control unit for determining the treatment time of the sediment and the contamination,
Wherein the sensor control unit includes a communication module for wirelessly transmitting the processing time of the deposit and the determination information of the contamination.

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